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WO2020143734A1 - Procédé et appareil de configuration de ressources, support d'informations et appareil électronique - Google Patents

Procédé et appareil de configuration de ressources, support d'informations et appareil électronique Download PDF

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Publication number
WO2020143734A1
WO2020143734A1 PCT/CN2020/071305 CN2020071305W WO2020143734A1 WO 2020143734 A1 WO2020143734 A1 WO 2020143734A1 CN 2020071305 W CN2020071305 W CN 2020071305W WO 2020143734 A1 WO2020143734 A1 WO 2020143734A1
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Prior art keywords
resources
signaling
multiple sets
sets
offset
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PCT/CN2020/071305
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English (en)
Chinese (zh)
Inventor
邓一伟
郝鹏
魏兴光
任敏
韩祥辉
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ZTE Corp
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ZTE Corp
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0053Allocation of signalling, i.e. of overhead other than pilot signals
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/20Manipulation of established connections
    • H04W76/27Transitions between radio resource control [RRC] states

Definitions

  • the present disclosure relates to the field of communications, for example, to a resource configuration method, device, storage medium, and electronic device.
  • the new generation mobile communication system NR (New Radio) is being researched and standardized. This is also one of the priorities of the 3rd Generation Partnership Project (3GPP). 3GPP supports configuring multiple sets of scheduling-free resources for user equipment (User Equipment) in the discussion of uplink (UL) scheduling-free topics.
  • User Equipment User Equipment
  • the configuration of multiple sets of resources is suitable for a variety of scenarios.
  • the resource configuration requirements are different in different usage scenarios.
  • the multi-resource configuration is mainly used in the following scenarios: 1) The same UE has multiple quality of service (QoS) business requirements; 2) Support the reliability and delay performance of the same service of the same UE; 3) Support the scenario of (Inter-UE) multiplexing between UEs to avoid resource collision between UEs.
  • QoS quality of service
  • Inter-UE Inter-UE multiplexing between UEs to avoid resource collision between UEs.
  • MCS Modulation and Coding Scheme
  • the resource configuration mode of non-scheduled transmission type 2 (Configured, Grant Type 2, CG Type 2)
  • Each set of resources corresponds to a signaling for scheduling-free resource configuration activation, on the one hand, the signaling overhead is relatively large, on the other hand, multiple activation
  • the set configuration will increase the physical downlink control channel (Physical Downlink Control Channel, PDCCH) blocking rate. How to reduce signaling overhead and PDCCH blocking rate when configuring and activating scheduling-free resources for the UE is a point that needs to be studied.
  • Embodiments of the present disclosure provide a resource configuration method, device, storage medium, and electronic device to at least solve the problem of relatively large signaling overhead for activating multiple sets of resource configuration in the related art.
  • a resource configuration method including: a base station configuring multiple sets of resources for a UE; the base station indicates at least one of the following information through signaling: an offset between the multiple sets of resources, The maximum number of configured resource sets and the maximum number of simultaneously activated resource sets; the base station issues an instruction to activate or deactivate the multiple sets of resources.
  • a resource configuration device located on a base station side and includes: a configuration module for configuring multiple sets of resources for a terminal; and an instruction module for indicating the following information through signaling At least one of: an offset between the multiple sets of resources, a configured maximum number of resource sets, and a maximum number of simultaneously activated resource sets; an activation module for issuing instructions to activate or deactivate the multiple sets of resources.
  • a storage medium in which a computer program is stored, wherein the computer program is set to execute any method embodiment of the present disclosure when it is run.
  • an electronic device including a memory and a processor, the memory stores a computer program, the processor is configured to run the computer program to perform any of the present disclosure Method embodiment.
  • the base station side can flexibly design activation signaling according to application scenarios of multiple sets of resources, thereby reducing signaling overhead for resource configuration activation.
  • FIG. 1 is a flowchart of a resource configuration method according to an embodiment of the present disclosure
  • FIG. 2 is a schematic diagram of the offset manner of multiple sets of resources according to an embodiment of the present disclosure
  • FIG. 3 is a schematic diagram of resource activation using 2 activation signaling according to an embodiment of the present disclosure
  • FIG. 4 is a schematic structural diagram of a resource configuration device according to an embodiment of the present disclosure.
  • FIG. 5 is a schematic structural diagram of a resource configuration device according to an alternative embodiment of the present disclosure.
  • FIG. 1 is a flowchart of resource configuration according to an embodiment of the present disclosure. As shown in FIG. 1, the process includes the following steps:
  • Step S102 the base station configures multiple sets of resources for the UE.
  • Step S104 The base station indicates at least one of the following information through signaling: the offset between the multiple sets of resources, the configured maximum number of resource sets, and the maximum number of simultaneously activated resource sets.
  • Step S106 The base station issues an instruction to activate or deactivate the multiple sets of resources.
  • the base station may configure different unscheduled resource sets for the UE, and the resources in the different resource sets correspond to different QoS service requirements of the UE.
  • One or more sets of scheduling-free resources can be configured in the same resource set. If multiple sets of resources are configured, the time domain size, frequency domain size, MCS and other parameters of the multiple sets of resources are the same.
  • offsets can be configured between multiple sets of resources, and the offset method can use one or a combination of the following: Method 1, time domain offset between different resources, time domain
  • the size of the offset can be one or more slots, symbols, the transmission length of one or more uplink physical shared channels (Physical Uplink Shared Channel, PUSCH), etc., which can be controlled by radio resources (Radio Resource Control, RRC) Signaling configuration.
  • RRC Radio Resource Control
  • Method 2 There is a frequency domain offset between different resources.
  • the size of the frequency domain offset can be one or N resource blocks (Resource, Block, RB), and one-half of the bandwidth of M (M, N is a positive integer).
  • RRC signaling configuration Mode 3
  • the time-frequency domain has an offset between different resources.
  • the granularity of the time-frequency domain offset is as described in modes 1 and 2, and can be configured by RRC.
  • the offset between multiple sets of resource configurations may be offset based on the first set of resource configurations, where one set of resource configurations may include multiple repeated transmission opportunities. For example, if four sets of resources are configured, the first set of resource configuration starts in the time domain with symbol 1 of a time slot, and the configured time domain offset is 1 symbol, then the second set of resources configures with the starting location of The symbol 2 of the time slot, the starting position of the third set of resource configuration is the symbol 3 of the time slot, and the starting position of the fourth set of resource configuration is the symbol 4 of the time slot.
  • the other offset methods are similar, and will not be described again.
  • step S106 of the embodiment if the offset manner of the multiple sets of resources is one, the signaling issued by the base station simultaneously activates or deactivates the multiple sets of resources. If there are multiple offset methods for the multiple sets of resources, the signaling issued by the base station simultaneously activates or deactivates the multiple sets of resources, where the signaling includes instructions for indicating the multiple sets of resources Indication field of the offset mode of, or the offset mode of distinguishing the multiple sets of resources through scrambling by different wireless network temporary identifiers (Radio Network Temporary Identifier, RNTI).
  • RNTI Radio Network Temporary Identifier
  • the signaling delivered by the base station further includes an indication field for activating or deactivating the multiple sets of resources, wherein the indication field for activating or deactivating the multiple sets of resources uses bits Bitmap way.
  • Each bit of the bitmap can correspond to a set of resources.
  • the multiple sets of resources are divided into multiple groups, and one bit in the bitmap may correspond to a group of resources.
  • the base station uses two signaling to jointly indicate activation or deactivation of the multiple sets of resources, the first signaling corresponds to N1 of the multiple sets of resources, and the second signaling corresponds to the Among the N2 sets of resources among the multiple sets of resources, N1 and N2 are both positive integers.
  • the first signaling may be a first type signaling
  • the second signaling is a second type signaling
  • the first type signaling is RRC signaling
  • the second similar signaling is by a cell Downlink Control Information (DCI) signaling scrambled by the Temporary Identifier (C-RNTI) of the wireless network.
  • DCI cell Downlink Control Information
  • C-RNTI Temporary Identifier
  • the base station may indicate activation or deactivation of the multiple sets of resource configurations through the first type signaling and the second type signaling.
  • the first type signaling and the second type signaling overlap in the frequency domain, the first type signaling and the second type signaling are delivered first.
  • the resources activated by signaling are deactivated, and the resources activated by signaling issued later take effect. If the resources activated by the first type signaling and the second type signaling do not overlap in the frequency domain, and the number of resource sets activated by the first type signaling and the second type signaling is less than or equal to the configured maximum simultaneous activation Number of resource sets, both the first type of signaling and the second type of activated resources are effective.
  • the resources activated by the first type signaling and the second type signaling do not overlap in the frequency domain, and the number of resource sets activated by the first type signaling and the second type signaling is greater than the configured and simultaneously activated maximum resource For the number of sets, in the first type signaling and the second type signaling, the resources activated by signaling delivered first are deactivated, and the resources activated by signaling delivered later take effect.
  • the UE selects resources for service transmission in the same set or multiple sets of resources simultaneously activated by one signaling; or, the UE selects resources with the smallest delay for service transmission, or, The UE preferentially selects the resource offset in the frequency domain at the same time. If there is no frequency domain offset resource that satisfies the condition, the UE selects the resource offset in the time domain.
  • Scenario 1 Multiple QoS service requirements for the same UE
  • Scenario 2) Reliability and delay performance of supporting the same service for the same UE
  • Scenario 3) Support in Inter-UE multiplexing scenarios to avoid resource collisions between UEs.
  • the base station configures the UE with different resource sets, and the resources in the different resource sets correspond to different QoS service requirements of the UE.
  • One or more sets of resources can be configured in the same resource set. If multiple sets of resources are configured, the time domain size, frequency domain size, MCS and other parameters of the multiple sets of resources are configured to the same size.
  • Offsets can be configured between multiple sets of resources. The offset can be one or a combination of the following: Method 1, the time domain offset between different resources, and the size of the time domain offset can be one or more One slot, symbol, transmission length of one or more PUSCH, etc., can be configured by RRC signaling. Manner 2: There is a frequency domain offset between different resources.
  • the size of the frequency domain offset may be one or N RBs, and one-half of the bandwidth (M, N is a positive integer) can be configured by RRC signaling.
  • Mode 3 the time-frequency domain has an offset between different resources.
  • the granularity of the time-frequency domain offset is as described in modes 1 and 2, and can be configured by RRC.
  • the base station configures the number of simultaneously activated resource sets N (N is a positive integer) for the UE.
  • the activation signaling (Type1 or Type2, Type1 is configured and activated by RRC issued by gNB; Type 2 has CS-RNTI scrambled DCI activation) activate multiple sets of resource configuration at the same time; if there are multiple offset configuration configurations for multiple sets of resources (2 types correspond to 1 bit indication, 3 types correspond to 2 bit indication), gNB
  • the activation signaling sent activates multiple sets of resources at the same time.
  • the activation signaling contains an offset indicator field used to indicate the activation of multiple sets of resources (new bit fields can be introduced in Type 1 and hybrid automatic retransmission can be reused in Type 2).
  • the number of request processes Hybrid, Automatic, ReQuest, Process, Number (HPN) field, low bit or Redundancy Version (RV) indicator field
  • different RNTI scrambling to distinguish different offset methods.
  • RRC may be used to configure the offset mode between the sets of resources in the same set, the maximum number of activated sets, and the number of simultaneously activated sets in the same resource set. Then it is activated by activation signaling, which can be RRC signaling (Type1), CS-RNTI scrambled DCI signaling or L1 signaling activation, MAC-Control Element (CE) signaling, MAC-CE
  • activation signaling can be RRC signaling (Type1), CS-RNTI scrambled DCI signaling or L1 signaling activation, MAC-Control Element (CE) signaling, MAC-CE
  • the signalling structure and the DCI signalling structure scrambled by CS-RNTI may be the same.
  • the number of resource sets simultaneously activated in the resource set 1 is 4, and multiple sets of resources adopt time domain offset (offset method 1).
  • the number of resource sets configured to be simultaneously activated in resource set 2 is 2, and multiple sets of resources adopt frequency domain offset (offset method 2).
  • the number of simultaneously activated sets configured in resource set 3 is 1, without offset.
  • a group (Group) DCI is used to indicate multiple sets of resources. There are multiple bit domains in the Group DCI, which can independently configure and activate multiple sets of resources.
  • the base station distinguishes different scenarios supported by the UE when configuring resources for the UE, and resources are independently configured in different scenarios.
  • the same UE supports multiple different QoS service requirements, and the base station uses N RRC signaling or N DCI signaling to activate the N sets of resource configurations according to the number of different QoS services supported by the user.
  • the reliability and delay performance of the same service supported by the same UE are guaranteed.
  • multiple sets of resources meet the same service.
  • the parameters of multiple sets of resource configuration are the same.
  • the base station indicates multiple sets through signaling (RRC) Service offsets (including time domain offsets, or both time and frequency domain offsets, refer to embodiment 1-1 for offset granularity) and the number of resource sets activated simultaneously N, the activation signaling issued by gNB activates multiple simultaneously
  • the activation signaling includes an offset indication field used to indicate the activation of multiple sets of resources or different offset methods are distinguished by different RNTI scrambling.
  • the parameters of multiple sets of resource configuration are the same, and the base station indicates the offset between multiple sets of services (including frequency domain offset) through signaling (RRC), or Both the time and frequency domains are offset.
  • RRC signaling
  • the activation signaling issued by gNB activates multiple sets of resource configurations at the same time. If there are multiple offset methods, the activation signal The order contains an offset indication field used to indicate the activation of multiple sets of resources or different offset methods are distinguished by different RNTI scrambling.
  • the base station distinguishes different scenarios supported by the UE when configuring resources for the UE, and resources are independently configured in different scenarios.
  • the same UE supports multiple different QoS service requirements, and the base station uses N RRC signaling or N DCI or N RRC and DCI signaling to activate the N sets according to the number N of users supporting different QoS services. Resource allocation.
  • the reliability and delay performance of the same service supported by the same UE are guaranteed.
  • multiple sets of resources meet the same service.
  • the parameters of multiple sets of resource configuration are the same.
  • the base station indicates multiple sets through signaling (RRC) Offsets between services (including time domain offsets, or both time and frequency domain offsets, refer to embodiment 1-1 for offset granularity) and the maximum number of configured resource sets N
  • the activation signaling delivered by gNB includes An indicator field indicating multiple sets of resource offset methods (or distinguishing different offset methods through scrambling by different RNTIs) and an indicator field used to activate multiple sets of resources, and a bitmap (bitmap) is used for the indicator field used to activate multiple sets of resources )The way. Each bit from high to low (low to high) corresponds to a set of resource allocation in turn.
  • two signalings can be used to jointly indicate the activation of multiple sets of resources.
  • the former DCI corresponds to the first N sets of resources and the latter DCI corresponds to the last N sets of resources.
  • gNB configures a resource group, which contains N sets of resources, and 1 bit in the bitmap in the activation signaling activates the N sets of resources at the same time.
  • the parameters of multiple sets of resource configuration are the same, and the base station indicates the offset between multiple sets of services (including frequency domain offset) through signaling (RRC), or Both the time and frequency domains are offset.
  • RRC signaling
  • the activation signaling issued by gNB includes an indication field for indicating multiple sets of resource offset methods (or different RNTI scrambling distinguishes between different offset methods) and an indication field for activating multiple sets of resources.
  • the indication field for activating multiple sets of resources adopts a bitmap method. High order to low order (low order to high order) correspond to a set of resource allocation in turn.
  • two joint indications can be used to activate multiple sets of resources.
  • the first DCI corresponds to the first N sets of resources, and the latter DCI corresponds to the N sets of resources.
  • gNB configures a resource group, which contains N sets of resources, and 1 bit in the bitmap in the activation signaling activates the N sets of resources at the same time.
  • the base station does not distinguish between different scenarios supported by the UE when configuring resources for the UE.
  • the base station indicates to the UE the maximum number of resource sets N and the time-frequency resource size, and the MCS and other parameters are configured with the same resource configuration offset.
  • the indication information used for activation contains the offset mode indication field and multiple sets of resource indication fields (bitmap), which means that multiple sets of configurations are simultaneously activated by the same signaling. If the activation indication information does not include the offset mode indication field ( Or through different RNTI scrambling to distinguish different offset methods) and the bitmap of multiple sets of resources, only one set of resources is configured and activated.
  • the base station indicates to the UE that the same signaling can simultaneously activate the maximum number of resource sets N and the size of the time-frequency resources.
  • the MCS has the same resource configuration offset method. Activating multiple sets of resources is indicated by both Type1 and Type2.
  • Type1 Two configuration modes, Type 2 and Type 2 can exist at the same time. There can be implicit deactivation between the two. If the resource activated at the latter moment overlaps with the previously activated resource in the frequency domain, then the post-activated resource takes effect and the previously activated resource is deactivated.
  • the signaling includes an offset mode indication field and a bit field indicating multiple sets of resources. The multiple sets of resources are indicated in the form of a bitmap.
  • Type1 mode activates a certain set (multiple sets, the same as the multiple sets of resource configuration in Example 1 series), and then Type2 also activates one or more sets of resources and the frequency domain resources partially overlap with the frequency domain resources configured by Type1. Then the corresponding Type1 configured resources are deactivated.
  • the signaling contains corresponding multiple sets of resource indication fields and offset mode indication fields), if yes If the number of simultaneously activated resource sets in the two signalings is less than or equal to the configured maximum number of simultaneously activated resource sets N, the resources activated by the two signalings will all take effect, and the bit fields in the two signalings will be combined as the activation resources
  • the bit field corresponds to 1 to M sets of resources in order from high to low, as shown in Figure 3.
  • the post-activated resources take effect and the previously activated resources are deactivated.
  • the base station configures the UE with multiple sets of scheduling-free resources, and UEs in different scenarios have different resource requirements for configuration.
  • the user can select different resource sets or different PUSCHs for service transmission according to requirements or the user can select different resource sets or different PUSCHs according to logical channels, where one logical channel corresponds to one or more PUSCHs.
  • applications 2) and 3
  • users can only select appropriate resources for data transmission in the same set or multiple sets of resource configurations activated simultaneously by one signaling.
  • the user selects the resource with the smallest delay (closest to it) for service transmission, for scenario 3), the user prefers to select the resource that is offset in the frequency domain at the same time, if there is no suitable frequency domain offset resource , The user selects a resource that is offset in the time domain.
  • a resource device is also provided.
  • the device is used to implement the above-mentioned embodiments and preferred implementation modes, and those that have already been described will not be repeated.
  • the term "module” may implement a combination of software and/or hardware that performs predetermined functions.
  • the devices described in the following embodiments are preferably implemented in software, implementation of hardware or a combination of software and hardware is also possible and conceived.
  • the resource configuration device is located in a base station. As shown in FIG. 4, the resource configuration device includes a configuration module 10, an instruction module 20, and an activation module 30.
  • the configuration module 10 is configured to configure multiple sets of resources for the UE in the same resource set or different resource sets.
  • the instruction module 20 is used to indicate the offset between the multiple sets of resources, the configured maximum number of resource sets, and the maximum number of simultaneously activated resource sets through signaling.
  • the activation module 30 is used to issue instructions to activate or deactivate the multiple sets of resources.
  • the device includes the configuration module 10, the instruction module 20, and the activation module 30 shown in FIG. 4, and the activation module further includes The first activation unit 31, the second activation unit 32, and the third activation unit 33.
  • the first activation unit 31 is configured to issue a signaling to activate or deactivate the multiple sets of resources at the same time when the offset manner of the multiple sets of resources is one.
  • the indication field of the offset mode may not be additionally set, or the indication field of the offset mode in the signaling does not need to be activated.
  • the second activation unit 32 is configured to issue a signaling to simultaneously activate or deactivate the multiple sets of resources when the multiple resource offset methods are multiple, wherein the signaling includes An indication field indicating the offset manners of the multiple sets of resources, or distinguishing the offset manners of the multiple sets of resources by scrambling with different RNTIs.
  • the third activation unit 33 is configured to, in the case where there are multiple offset methods, the signaling sent further includes an indication field for activating or deactivating the multiple sets of resources, where the activation or deactivation is performed.
  • the indication field of multiple sets of resources adopts the way of bitmap.
  • the above modules can be implemented by software or hardware, and the latter can be implemented by the following methods, but not limited to this: the above modules are all located in the same processor; or, the above modules can be combined in any combination The forms are located in different processors.
  • An embodiment of the present disclosure also provides a storage medium in which a computer program is stored, wherein the computer program is set to execute any of the steps in the above method embodiments when it is run.
  • the above storage medium may include but not limited to: Universal Serial Bus flash disk (Universal Serial Bus flash disk, U disk), read-only memory (Read-Only Memory, ROM), random access memory (Random Access (Memory, RAM), mobile hard disk, magnetic disk or optical disk and other media that can store computer programs.
  • Universal Serial Bus flash disk Universal Serial Bus flash disk, U disk
  • read-only memory Read-Only Memory
  • RAM random access memory
  • mobile hard disk magnetic disk or optical disk and other media that can store computer programs.
  • An embodiment of the present disclosure also provides an electronic device, including a memory and a processor, where a computer program is stored in the memory, and the processor is configured to run the computer program to perform the steps in any one of the foregoing method embodiments.
  • modules or steps of the present disclosure described above can be implemented by a general-purpose computing device, and they can be concentrated on a single computing device or distributed on a network composed of multiple computing devices. Alternatively, they can be implemented with program code executable by the computing device, so that they can be stored in the storage device to be executed by the computing device, and in some cases, the programs can be executed in an order different from here
  • the steps shown or described are realized by making them into individual integrated circuit modules, or by making multiple modules or steps among them into a single integrated circuit module. In this way, the present disclosure is not limited to any specific combination of hardware and software.

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Abstract

La présente invention concerne un procédé et un appareil de configuration de ressources, un support d'informations et un appareil électronique. Le procédé comprend les étapes suivantes : un côté station de base configure une pluralité d'ensembles de ressources pour un terminal ; le côté station de base indique, au moyen d'une signalisation, au moins l'une des informations suivantes : un décalage entre la pluralité d'ensembles de ressources, le nombre maximal d'ensembles de ressources configurés et le nombre maximal d'ensembles de ressources activés simultanément ; et une station de base qui émet une signalisation pour activer ou désactiver la pluralité d'ensembles de ressources.
PCT/CN2020/071305 2019-01-11 2020-01-10 Procédé et appareil de configuration de ressources, support d'informations et appareil électronique Ceased WO2020143734A1 (fr)

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